Collapsible kennel

ABSTRACT

A collapsible kennel having a top panel, a bottom panel, two side panels, a front panel having an opening, and a rear panel. The top panel, bottom panel, two side panels, front panel, and rear panel are connected to one another to form a substantially rectangular enclosure having a door in the opening for ingress and egress. The front and rear panels each include a peripheral edging containing a looped frame. The side panels each include a peripheral edging containing opposed side frames, the side frames each having a first end and a second end, the first and second ends being attached to respective looped frames. A method of collapsing the kennel is also disclosed.

RELATED APPLICATIONS

This is a continuation-in-part of co-pending U.S. patent application Ser. No. 14/018,566, filed 5 Sep. 2013, which is a continuation-in-part of co-pending U.S. patent application Ser. No. 13/904,605, filed 29 May 2013.

BACKGROUND OF THE INVENTION

The present invention relates generally to collapsible structures and specifically to a collapsible container for use by pets.

Certain devices are known in the art to provide an enclosure or structure for temporarily containing or for transporting a pet or other objects. For example, U.S. Pat. No. 6,539,895 to Hoagland teaches a portable pet carrier having a top portion, a middle section and a bottom portion made primarily from a molded synthetic material, with the top portion having a handle-like structure for carrying the assembled pet carrier and the middle portion having holes for ventilation and a door or window-like structure for placing a pet in or removing a pet from the carrier. Other pet enclosures are known in the art to be collapsible. These devices commonly have a square footprint and a domed configuration, which creates a pet enclosure that is larger than necessary because of unutilized space. As the size of the enclosure increases, its cost increases and its integrity decreases.

The prior art pet enclosures are voluminous in their expanded state, are either non-collapsible or are uneasy to fold or collapse, are still relatively voluminous in their collapsed state, and are difficult to manipulate. These configurations require more space, consume more materials, and require stronger collapsible framing than are necessary to efficiently contain or transport pets or other objects. The present invention solves the above-mentioned shortcomings and provides a convenient, easy to manipulate, and more efficiently sized ergonomic enclosure for containing and transporting pets or other objects.

SUMMARY OF THE INVENTION

The present invention relates generally to a collapsible structure and specifically to a collapsible structure for use as an animal kennel and method of making and using the same.

According to the present invention, the foregoing and other advantages are obtained by providing a collapsible kennel comprising a plurality of panels including opposed side panels, a top panel, and a floor panel, forming an enclosure having two ends, one end having an opening. In the preferred embodiment, each side panel comprises flexible continuous loop frame, a web of material, and an edging material. The edging material envelops the loop frame and is coupled to the periphery of the web. Each end includes a periphery having an edging material. The edging material envelops a loop frame in a manner similar to that of the side panels. Each end is further provided with a rigid border member to support either a kennel door for ingress and egress, or a mesh panel as will be discussed, thus forming the structure.

Alternatively, the side panels may each comprise a pair of opposed flexible side frame members, each side frame member having a first frame end and a second frame end, a web of material, and an edging material. The edging material envelops the side frame members and is coupled to the periphery of the web. Each collapsible kennel end includes a periphery having an edging material. The edging material envelops a flexible, continuous loop frame in a manner similar to that of the side panels. The first frame ends of each of the flexible side frame members are attached to a first loop frame while the second side frame ends are attached to a second loop frame.

A preferred method of manufacturing the collapsible kennel includes the steps of coupling edging to selected webs such that the edging surrounds the perimeter of the web and forms a channel or pocket through which the frame will later be inserted. After the requisite number of side panels having edging has been formed, opposed sides of the floor panel are each attached to the bottom side of a side panel. Next, the top side of each side panel is connected with opposed sides of the top panel. A flexible frame for each side panel is inserted through the channel formed by each edging. The ends of each frame member are connected, preferably using a crimped butt connector, to give the collapsible kennel its ability to freely stand in a rigid, expanded, upright state. Next, an edging is coupled to the periphery of each end and a flexible frame for each periphery is inserted through the channel formed by each edging. The ends of each frame member are connected in manner similar to that used for the side panels. A rigid border member is attached to each end. The rigid border members are adapted to support closure structures such as a kennel door or ventilated mesh webbing.

A method of manufacturing an alternative collapsible kennel may include the steps of coupling edging to selected webs such that the edging surrounds the perimeter of the web and forms a channel or pocket through which the side frames will later be inserted. After the requisite number of side panels having edging has been tarried, opposed sides of a floor panel are each attached to the bottom side of a side panel. Next, the top side of each side panel is connected with opposed sides of the top panel. Each side panel is provided with a pair of opposed flexible side frames. The flexible side frames are inserted through opposed portions of the channel formed by each edging. Each side frame member includes a first frame end and second frame end. Next, an edging is coupled to the periphery of each end of the collapsible kennel and a flexible continuous loop frame for each periphery is inserted through the channel formed by each edging. The ends of each flexible continuous loop frame member are connected preferably using a crimped butt connector, to form a continuous frame and to give the collapsible kennel its ability to freely stand in a rigid, expanded, upright state. The first frame ends of the flexible side frames are attached to a first continuous loop frame member, and the second frame ends of the flexible side frames are attached to a second continuous loop frame member. The frame ends may be attached to the continuous loop frame members by crimping or other known means. A rigid border member is attached to each end of the collapsible kennel. The rigid border members are adapted to support closure structures such as a kennel door or ventilated mesh webbing.

From the expanded state, the kennel can be folded and collapsed for storage or transportation. The preferred steps of collapsing the kennel include grasping the rigid border member of the entrance end and rotating it 180° while compressing the side panels until the side panels are spiraled against each other and the rigid border members are adjacent and overlay each other. While the kennel is now collapsed, downward pressure is required to prevent the kennel from springing back into an expanded state. Next, the fastener members on a rigid border member are pivoted to catch a corresponding latch member on an opposite rigid border member to thereby hold the kennel in the collapsed state for storage.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a collapsible kennel according to the present invention.

FIG. 2 is a perspective view similar to that of FIG. 1, but showing the door open with a dog inside.

FIG. 3 is a perspective view of the kennel in collapsed condition.

FIG. 4 is a front plan view of the collapsible kennel.

FIG. 5 is a rear plan view of the collapsible kennel.

FIG. 6 is a side plan view of the collapsible kennel.

FIGS. 7-11 depict a method of collapsing the collapsible kennel, and using a fastener and latch system to hold the collapsed kennel in the collapsed state.

FIG. 12 is a cutaway view of the collapsible kennel illustrating the interrelationship of the various components while in expanded condition.

FIG. 13 is a fragmentary cutaway view showing attachment of a rigid frame member to the open end loop frame.

FIG. 14A is an enlarged cross sectional view of the loop frame used in the open ends.

FIG. 14B is an enlarged cross sectional view similar to that of FIG. 14A, but showing the loop frame used in the side panels.

FIG. 15 is an exploded view of the collapsible kennel.

FIG. 16 is a side plan view, similar to FIG. 6, but showing an alternative collapsible kennel.

FIG. 17 is a rear plan view of the collapsible kennel illustrated in FIG. 16.

FIG. 18 is an exploded view of the collapsible kennel illustrated in FIGS. 16 and 17.

FIGS. 19 and 20 illustrate a method of expanding the kennel shown in FIGS. 16-18.

FIG. 21 is a perspective view of the kennel illustrated in FIGS. 16-20, but in collapsed condition.

FIG. 22 is a perspective view of an alternative collapsible kennel according to the present invention and showing hand hold apertures.

FIG. 23 is a perspective view of an alternative collapsible kennel according to the present invention and side panels having opposed frame members.

FIG. 24 is a cutaway view of the collapsible kennel shown in FIG. 23 and illustrating the interrelationship of the various components while in expanded condition.

FIG. 25 is an exploded view of the collapsible kennel shown in FIGS. 23 and 24.

FIGS. 25A and 25B are enlarged cut away views taken from FIG. 25.

FIGS. 26-30 depict a method of collapsing the collapsible kennel shown in FIGS. 23-25, and using a fastener and latch system to hold the collapsed kennel in the collapsed state.

DESCRIPTION OF THE PREFERRED EMBODIMENT

Although the disclosure hereof is detailed and exact to enable those skilled in the art to practice the invention, the physical embodiments herein disclosed merely exemplify the invention which may be embodied in other specific structures. While the preferred embodiment has been described, the details may be changed without departing from the invention, which is defined by the claims.

As shown in the Figures, a collapsible enclosure 10 according to the present invention comprises a top panel 12, a bottom panel 14, two side panels 20, a front panel 30 having a door 32, and a rear panel 40. The to panel 12, bottom panel 14, two side panels 20, front panel 30, and rear panel 40 are connected to one another to form a substantially rectangular enclosure 10 having the door 32 for ingress and egress.

Referring to FIGS. 1-6 and 15 it may be seen that each side panel 20 comprises a frame 22, a web 24, and an edging 26. The frame 22 is flexible, preferably formed from a sufficiently stiff yet resilient material such as spring steel wire or plastic, and may form a loop that may or may not be continuous. Preferably, the frame 22 has a rectangular cross-section, as seen in FIG. 14B. The frame 22 is contained within the channel or pocket 25 formed by the edging 26 (best, seen in FIG. 15). The webs 24 are a flexible foldable material, such as nylon cloth or nylon mesh, but can be any suitably flexible material. The nylon, or other flexible material, may be solid or Perforated. The perimeter of the web 24 is stitched to the edging 26 such that the edging 26 forms a pocket 25 about the periphery of the web 24. The edging 26 is a foldable, but stretch-resistant material capable of housing the frame 22 within its pocket 25.

As best seen in FIGS. 1 and 15, the top panel 12 and bottom panel 14 preferably each comprise a continuous and non-interrupted foldable material. Each side panel web 24 preferably comprises a continuous and non-interrupted mesh material, or alternatively, may a combination of mesh material and non-mesh foldable material.

With particular reference now to FIG. 15, the front panel 30 is seen to have a generally rectangular shape having a periphery that defines a front opening 34. Further seen is the rear panel 40 which also has a generally rectangular shape having a periphery. The periphery of both the front panel 30 and the rear panel 40 includes an edging 26. The edging 26 forms a pocket 25 about the periphery of the front panel 30 and the rear panel 40 and, similar to the edging 26 discussed in conjunction with the side panels 20, is a foldable, but stretch-resistant material capable of housing a frame 22A within its pocket 25. As seen in FIG. 14A, the frame 22A used in conjunction with the front panel 30 and the rear panel 40 preferably has a round cross section. In construction, the top panel 12 and the bottom panel 14 each include four corner sections 52 which are attached to four substantially perpendicular sides of each side panel 20, the front panel periphery, and the rear panel periphery.

With reference now to FIGS. 13 and 15, a rigid border member 60 is positioned over and is attached to the edging 26 of the front panel 30. As seen, the rigid border member 60 may include a mounting element 62 having an abutment 64 to support the frame 22A in its pocket 25. The abutment 64 may be further adapted to receive a fastener, such as the screw 66 and washer 68 combination shown. A door member 32 is preferably positioned within the rigid border member 60 and provides ingress and egress for the enclosure 10. A door 32 for use with the present invention may be any kennel-type door structure. The doer structure 32 illustrated is a grate-type structure and includes a plurality of cross bars 36 which may be spaced to define transversely spaced openings 38 configured to permit airflow, visibility, and retain a pet, as desired. The cross bars 36 may also be configured to engage and be supported by the rigid border member 60 for attachment thereto. A knob 54 or other latching mechanism may be further provided for latching access to the container 10.

In a manner similar to that of the front panel 30, a rigid border member 60 is positioned over and is attached to the edging 26 of the rear panel 40. As with the front panel 30, the rigid border member 60 used in conjunction with the rear panel 40 may include a mounting element 62 adapted to support the frame 22A in its pocket 25 and further to receive a fastener such as the screw 66 and washer 68 combination shown in FIGS. 13 and 15. A woven air permeable mat 42 or other similar material is preferably positioned within the rear rigid border member 60 and provides enhanced air circulation for the enclosure 10 when used as a pet kennel. One of the rigid border members 60 is further preferably provided with latches 70 which may be moved between open and closed positions. The latches 70 engage corresponding protruding catches 72 on the opposite rigid border member 60 to thereby hold the kennel in the collapsed state for storage, as will be discussed.

Although stitching is presented as the preferred means for attaching or connecting the elements of the kennel 10 and permitting relatively convenient folding of the kennel 10, it is to be understood that other methods of attachment can be used in this invention. Such other methods may include heat sealing, gluing and the like. Accordingly, construction of the collapsible kennel should not be limited to stitching alone.

From the expanded state, the kennel 10 may be folded into a collapsed state for storage and transportation. FIGS. 7 to 11 stow various steps for collapsing the kennel 10. Referring to FIG. 7, the first step requires positioning the kennel with the front panel 30 on top, grasping the rigid border member 60 and rotating 180° in the direction of arrow A while compressing the side panels 20 until the side panels 20 are spiraled against each other and the rigid border members 60 are adjacent and overlay each other. The kennel 10 is now collapsed, but downward pressure is still required to prevent the kennel 10 from springing back into an expanded state. FIG. 11 shows the final step of pivoting the latch members 70 on a rigid border member 60 in the direction of arrow B to catch a corresponding catch member 72 on an opposite rigid border member 60 to thereby hold the kennel in the collapsed state for storage.

When the latch members 70 are uncoupled from the latch members 72, the frame members 22 will bias the kennel 10 into its fully expanded state. Again, the fully expanded state of the embodiment is that shown in FIG. 1.

With attention now to FIGS. 16-21, another embodiment of a collapsible kennel 100 may be seen. Similar to the previously described device 10, the collapsible kennel 100 in these views comprises a top panel 12, a bottom panel 14, two side panels 20, a front panel 30 having a door 32, and a rear panel 40. The top panel 12, bottom panel 14, and two side panels 20 are connected to one another to form a substantially rectangular enclosure 100. The panels 12, 14, and 20 may be formed from a flexible foldable material, such as nylon cloth or nylon mesh, but can be any suitably flexible material. Further, the material may be solid or perforated.

Referring particularly to FIG. 18 it may be seen that the front panel 30 and the rear panel 40 each include a frame 22 and an edging 26. The frame 22 is flexible, preferably formed from a sufficiently stiff yet resilient material such as spring steel wire or plastic, and may form a loop that may or may not be continuous. The frame 22 is contained within the channel or pocket 25 formed by the edging 26.

As may be further seen in the view of FIG. 18, the device 100 may further include a plurality of insert panels 80. The insert panels 80 provide shape and rigidity to the device 100 while in the expanded condition. As viewed, the insert panels 80 each comprise a frame 22, a web 24, and an edging 26. Similar to frames 22 described previously, the frames 22 utilized in the insert panels 80 are flexible, preferably formed from a sufficiently stiff yet resilient material such as spring steel wire or plastic that may form a loop that may or may not be continuous. The frame 22 is contained within the channel or pocket 25 formed by the edging 26. The webs 24 are a flexible foldable material, such as nylon cloth or nylon mesh, but can be any suitably flexible material. The nylon, or other flexible material, may be solid or perforated. The perimeter of the web 24 is stitched to the edging 26 such that the edging 26 forms a pocket 25 about the periphery of web 24. The edging 26 is a foldable, but stretch-resistant material capable of housing the frame 22 within its pocket 25. The insert panels 80 may be further provided with means for attachment to the side panels 20, such as the hook and loop fasteners 82 shown. In use, the insert, panels 80 are placed in the device 100 and positioned adjacent the side panels 20 for rigidity, as will be discussed.

With further reference to FIG. 18, a rigid border member 60 is positioned over and is attached to the edging 26 of the front panel 30, As illustrated, and similar to the rigid border member 60 discussed with regard to FIGS. 1-15, the rigid border member 60 shown in this view may include a mounting element 62 (see FIG. 13) to support the frame 22 in its pocket 25. As in the previous embodiment, an abutment 64 such as that shown in FIG. 13 may be further adapted to receive a fastener, such as the screw 66 and washer 68 combination shown. A door member 32 is preferably positioned within the rigid border member 60 to provide ingress and egress for the enclosure 100. A door 32 for use with the present invention may be any suitable kennel-type door structure, such as the grate-type structure illustrated. As in the previous embodiment, the door 32 may include a plurality of cross bars 36 which may be spaced to define transversely spaced openings 38 configured to permit airflow, visibility, and retain a pet as desired. The cross bars 36 may also be configured to engage and be supported by the rigid border member 60 for attachment thereto. A knob 54 or other latching mechanism may be further provided for latching access to the container 100.

With regard to the rear panel 40, a web 24 may be attached to the edging 26 in a manner similar to that of the insert panels 80. The web 24 may perforate or imperforate, as desired and formed from any suitably flexible material. The rigid border member 60 attached to the front panel 30 is further preferably provided with latches 70 which may be moved between open and closed positions. The latches 70 engage the edging 26 of the rear panel 40 to thereby hold the kennel in the collapsed state for storage, as will be discussed.

From the collapsed state, the kennel 100 may be opened into its expanded state for use. FIGS. 19 and 20 illustrate various steps for expanding the kennel 100 prior to use. Referring to FIG. 7, a first step includes placing a collapsed insert panel 80 into the kennel 100. As seen, the kennel 100 is in a generally expanded condition, as the rigid border member 60 acts to hold the kennel opening 34 in an open position. When the collapsed insert panel 80 is released inside the kennel 100, the frame 22 biases the insert panel 80 into an expanded state. The insert panel 80 is then positioned adjacent a side panel 20, as illustrated in FIG. 20. The insert panel 80 serves to provide added structure and rigidity to the side panel 20 and further aids in maintaining the kennel 100 in an expanded condition. As illustrated, multiple insert Panels 80 may be contemplated in conjunction with the kennel 100, with a single insert panel 80 placed adjacent each respective side panel 20. Each insert panel 80 may be further provided with means for attachment to a respective side panel 20, such as the hook and loop fasteners 82 shown, although it is to be understood that other suitable attachment mechanisms may be considered such as tape, buttons or ties, by way of non-limiting examples. The kennel 100 may be collapsed in a manner similar to that described with reference to FIGS. 7-10, while leaving the insert panels 80 in place, if desired. FIG. 21 shows the final, collapsed condition of the kennel 100, with the latch members 70 on rigid border member 60 grasping the edging 26 of the rear panel 40 to thereby hold the kennel 100 in the collapsed state for storage and transportation.

The collapsed kennel 100 may be expanded when the latch members 70 are uncoupled from the edging 26. With the insert panels 80 in place within the collapsed kennel 100, the insert panel 80 frame members 22 will bias the kennel 100 into its fully expanded state shown in FIG. 16.

With attention now to FIG. 22, another embodiment of a collapsible kennel 200 may be seen. Similar to the previously described devices 10, 100, the collapsible kennel 200 in this view comprises a top panel 12, a bottom panel 14, two side panels 20, a front panel 30 having a door 32, and a rear panel 40 (not seen in this view). The top panel 12, bottom panel 14, and two side panels 20 are connected to one another to form a substantially rectangular enclosure 200 having the door 32 for ingress and egress.

As in the previous embodiments, each side panel 20 comprises a frame 22, a web 24, and an edging 26. The frame 22 is contained within the channel or pocket 25 formed by the edging 26 (best seen in FIG. 15). The webs 24 may be formed from a flexible foldable material, such as nylon cloth or nylon mesh, but can be any suitably flexible material. Further, the material may be solid or perforated. The perimeter of the web 24 is stitched to the edging 26 such that the edging 26 forms a pocket 25 about the periphery of the web 24. The edging 26 is a foldable, but stretch-resistant material capable of housing the frame 22 within its pocket 25. As may be further seen, at least one of the side panels 20 may further include a handhold opening 210. The handhold opening 210 may be used to transport, position, or otherwise move the structure 200 as may be required during use. As seen, the opening 210 is hounded by edging material 26 in a manner similar to that of the webs 24. As may be viewed, the perimeter of the opening 210 is stitched to the edging 26 for reinforcement and support. The edging 26 used in conjunction with the opening 210 is similar to the edging 26 used in other areas of the structure 10, 100, 200 and is a foldable but stretch-resistant material. The opening 210 may be located at any suitable position in a selected site panel 20, however the opening 210 is illustrated at a convenient, centered midpoint. Further, it is to be understood that, while not specifically shown, a handhold opening 210 may be used in conjunction with the collapsible kennel 100 illustrated in FIGS. 16-21.

As in previous embodiments, the to panel 12 and bottom panel 14 of kennel 200 preferably each comprise a continuous and non-interrupted foldable material. Each side panel web 24 preferably comprises a continuous and non-interrupted mesh material, or alternatively, may comprise a combination of mesh material and non-mesh foldable material.

With attention now to FIGS. 23-30 another embodiment of a collapsible kennel 300 may be seen. Similar to the previously described devices 10, 100, 200, the collapsible kennel 300 in these views comprises a top panel 12, a bottom panel 14, two side panels 20, a front panel 30 having a door 32, and a rear panel 40. The top panel 12, bottom panel 14, and two side panels 20 are connected to one another to form a substantially rectangular enclosure 300. The panels 12, 14, and 20 may be formed from a flexible foldable material, such as nylon cloth or nylon mesh, but can be any suitably flexible material. Further, the material may be solid or perforated.

Referring now to FIGS. 23-25 it may be seen that each side panel 20 comprises a pair of opposed side frames 322, a web 24, and an edging 26. The side frames 322 are flexible, preferably formed from a sufficiently stiff yet resilient material such as spring steel wire or plastic, and each include a first frame end 324A and a second frame end 324B. Preferably, the side frames 322 have a rectangular cross-section, as seen in FIG. 14B. The side frames 322 are contained within the channel or pocket 25 formed by the edging 26 (best seen in FIG. 25). The webs 24 are a flexible foldable material, such as nylon cloth or nylon mesh, but can be any suitably flexible material. The nylon, or other flexible material, may be solid or perforated. The perimeter of the web 24 is stitched to the edging 26 such that the edging 26 forms a pocket 25 about the periphery of the web 24. The edging 26 is a foldable, but stretch-resistant material capable of housing a side frame 322 within its pocket 25.

As best seen in FIGS. 23 and 25, the top panel 12 and bottom panel 14 preferably each comprise a continuous and non-interrupted foldable material. Each side panel web 24 preferably comprises a combination of mesh material and non-mesh foldable material, or alternatively, may comprise a continuous and non-interrupted mesh material.

With particular reference now to FIG. 25, the front panel 30 is seen to have a generally rectangular shape having a periphery that defines a front opening 34. Further seen is the rear panel 40 which also has a generally rectangular shape having a periphery. The periphery of both the front panel 30 and the rear panel 40 includes an edging 26. The edging 26 forms a pocket 25 about the periphery of the front panel 30 and the rear panel 40 and, similar to the edging 26 discussed in conjunction with the side panels 20, is a foldable, but stretch-resistant material capable of housing a continuous loop frame 22A within its pocket 25. As seen in FIG. 14A, the frame 22A used in conjunction with the front panel 30 and the rear panel 40 preferably has a round cross section.

As seen particularly in the view of FIGS. 25-25B, the side frames 322 each include a first frame end 324A and a second frame end 324B. In construction of the kennel 300, the first frame end 324A is attached to a first continuous loop frame 22A, while the second frame end 324B is attached to a second continuous loop frame 22A to thereby secure the side frames 322 to the loop frames 22A. With particular reference to FIG. 25, attachment of the frame ends 324A, 324B to the loop frames 22A may be seen. As shown, the frame ends 324A, 324B may each encircle a respective portion of a loop frame 22A to couple the frame ends 324A, 324B to a respective loop frame 22A. Although the Figures show the frame ends 324A, 324B encircling the loop frame 22A, it to be understood that the frame ends 324A, 324B may be attached in other acceptable manner, such as by crimping, welding, or other known means.

With reference now to FIGS. 13 and 25, a rigid border member 60 is positioned over and is attached to the edging 26 of the front panel 30. As seen, and similar to the rigid border member 60 discussed with regard to FIGS. 1-22, the rigid border member 60 may include a mounting element 62 (see FIG. 13) to support the frame 22A in its pocket 25. As in the previous embodiments, an abutment 64, such as that shown in FIG. 13, may be further adapted to receive a fastener, such as the screw 66 and washer 68 combination shown. A door member 32 is preferably positioned within the rigid border member 60 and provides ingress and egress for the kennel 300. A door 32 for use with the present invention may be any suitable kennel-type door structure, such as the grate-type structure illustrated. As in the previous embodiments, the door 32 may include a plurality of cross bars 36 which may be spaced to define transversely spaced openings 38 configured to permit airflow, visibility, and retain a pet as desired. The cross bars 36 may also be configured to engage and be supported by the rigid border member 60 for attachment thereto. A knob 54 or other latching mechanism may be further provided for latching access to the container 300.

With regard to the rear panel 40, and in a manner similar to that of the front panel 30, a rigid border member 60 is positioned over and is attached to the edging 26 of the rear panel 40. As with the front panel 30, the rigid border member 60 used in conjunction with the rear panel 40 may include a mounting element 62 adapted to support the Frame 22A in its pocket 25 and further to receive a fastener such as the screw 66 and washer 68 combination shown in FIGS. 13 and 25. A rigid air permeable grille 340 or other similar structure is preferably positioned within the rear rigid border member 60 and provides enhanced air circulation while providing rigidity to the collapsible kennel 300. One of the rigid border members 60 (seen as the rear rigid border member 60 in these views) is further preferably provided with at least one latch member 70 which may be moved between open and closed positions. The latch member 70 engages a corresponding protruding catch 72 on the opposite rigid border member 60 to thereby hold the kennel 300 in the collapsed state for storage, as will be discussed.

As in the previously described embodiments, although stitching is presented as the preferred means for attaching or connecting the elements of the kennel 300 and permitting relatively convenient folding of the kennel 300, it is to be understood that other methods of attachment may be used. Such other methods may include heat sealing, gluing and the like. Accordingly, construction of the collapsible kennel 300 should not be limited to stitching alone.

FIGS. 26-30 illustrate various steps for collapsing the kennel 300 after use. The kennel 300 may be collapsed in a manner similar to that described with reference to FIGS. 7-10. The first step requires positioning the kennel 300 with the front panel 30 on top, grasping the rigid border member 60 and rotating 180° in the direction of arrow A while compressing the side panels 20 until the side panels 20 are spiraled against each other and the rigid border members 60 are adjacent and overlay each other. The kennel 300 is now collapsed, but downward pressure is required to prevent the kennel 300 from springing back into an expanded state. FIG. 30 shows the final step of pivoting the latch members 70 on a rigid border member 60 in the direction of arrow B to catch a corresponding catch member 72 on an opposite rigid border member 60 to thereby hold the kennel 300 in the collapsed state for storage and transportation.

When the latch members 70 are uncoupled from the catch members 72, the frame members 22 will bias the kennel 300 into its fully expanded state. Again, the fully expanded state of the embodiment is that shown in FIG. 23.

The foregoing is considered as illustrative only of the principles of the invention. Furthermore, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described. While the preferred embodiment has been described, the details may be changed without departing from the invention, which is defined by the claims. 

I claim:
 1. A collapsible pet kennel comprising: a body including a plurality of body panels, including opposed first and second side panels and opposed top and bottom panels; a plurality of panel frames provided among the plurality of body panels, each of the plurality of panel frames constructed as a stiff, yet resilient element extending between a first and a second end of the body and contained within a pocket formed by an edging of a corresponding one of the plurality of body panels; and a first end frame formed as a loop to support the first end of the body and a second end frame formed as a loop to support the second end of the body, wherein each of the plurality of panel frames has a first end encircling the first end frame and a second end encircling the second end frame; a first rigid border member directly attached to the first end frame at the first end of the body by engagement of a first plurality of fasteners into the first rigid border member for capturing the body without penetration thereof, wherein the first rigid border member forms a border frame within which a door of a grate-type construction having a plurality of cross bars is retained; and a second rigid border member directly attached to the second end frame at the second end of the body by engagement of a second plurality of fasteners into the second rigid border member for capturing the body without penetration thereof, wherein the second rigid border member forms a border frame within which an air permeable grille is retained, wherein the collapsible kennel is configured to transition from an expanded position to a collapsed position by collapsing of the first and second rigid border members together in combination with a relative rotation therebetween, wherein the attachments of the first rigid border and the second rigid border member are maintained through the transition, and wherein the first rigid border member includes a first latching element and the second rigid border member includes a second latching element, and wherein the first and second latching elements are engageable to retain the collapsible kennel in the collapsed position.
 2. The collapsible pet kennel of claim 1, wherein the first end frame is positioned within a first peripheral edging of stretch-resistant material and the second end frame is positioned within a second peripheral edging of stretch-resistant material.
 3. The collapsible pet kennel of claim 1, wherein each of the first end frame and the second end frame is constructed as a stiff, yet resilient continuous loop.
 4. The collapsible pet kennel of claim 1, wherein the collapsible kennel is configured to transition from the expanded position to the collapsed position by collapsing of the first and second rigid border members together in combination with a 180-degree relative rotation therebetween, such that the first and second latching elements are configured to transition from diametrically opposed positions to aligned positions.
 5. The collapsible pet kennel of claim 1, wherein each of the plurality of panel frames is formed by an element having a rectangular cross-section.
 6. The collapsible pet kennel of claim 1, wherein each of the first plurality of fasteners and each of the second plurality of fasteners includes a screw and a washer.
 7. The collapsible pet kennel of claim 1, wherein the plurality of panel frames are side panel frames of the first and second side panels.
 8. The collapsible pet kennel of claim 1, wherein in the expanded position, the body of the pet kennel defines a height and a width at each of the first and second end frames and further defines a length between the first and second end frames, and wherein the length is greater than the height and greater than the width.
 9. The collapsible pet kennel of claim 1, wherein one of the first and second latching elements is a pivotable latch member and the other of the first and second latching elements is a catch member selectively latchable by the latch member.
 10. A collapsible pet kennel comprising: a body including a plurality of body panels, including opposed first and second side panels and opposed top and bottom panels; a plurality of panel frames provided among the plurality of body panels, each of the plurality of panel frames constructed as a stiff, yet resilient element extending between a first and second end of the body and contained within a pocket formed by an edging of a corresponding one of the plurality of body panels; and a first end frame formed as a continuous loop to support the first end of the body and a second end frame formed as a loop to support the second end of the body, wherein each of the plurality of panel frames has a rectangular cross-section, a first end encircling the first end frame, and a second end encircling the second end frame; and a first rigid border member directly attached to the first end frame at the first end of the body by engagement of a first plurality of fasteners into the first rigid border member for capturing the body without penetration thereof, wherein the first rigid border member forms a border frame within which a door of a grate-type construction having a plurality of cross bars is retained, wherein the collapsible kennel is configured to transition from an expanded position to a collapsed position by collapsing of the first and second ends together in combination with a relative rotation, therebetween, wherein the relative rotation for transitioning from the expanded position to the collapsed position is a 180-degree rotation about a mutual axis, wherein the attachment of the first rigid border member is maintained through the transition, and wherein the first rigid border member is formed to include a latching element configured to retain the collapsible kennel in the collapsed position.
 11. The collapsible pet kennel of claim 10, wherein the latching element is a pivoting latch member.
 12. The collapsible pet kennel of claim 10, further comprising a second rigid border member directly attached to the second end frame at the second end of the body by engagement of a second plurality of fasteners into the second rigid border member for capturing the body without penetration thereof, wherein the second rigid border member forms a border frame and includes a latching element engageable with the latching element of the first rigid border member to retain the collapsible kennel in the collapsed position.
 13. The collapsible pet kennel of claim 12, wherein one of the latching elements of the first and second rigid border members is a pivotable latch member and the other is a catch member selectively latchable by the latch member.
 14. The collapsible pet kennel of claim 12, wherein each of the first plurality of fasteners and each of the second plurality of fasteners includes a screw and a washer.
 15. The collapsible pet kennel of claim 10, wherein in the expanded position, the body of the pet kennel defines a height and a width at each of the first and second end frames and further defines a length between the first and second end frames, and wherein the length is greater than the height and greater than the width. 